Uploaded on


More in: Technology , Business
  • Full Name Full Name Comment goes here.
    Are you sure you want to
    Your message goes here
    Be the first to comment
    Be the first to like this
No Downloads


Total Views
On Slideshare
From Embeds
Number of Embeds



Embeds 0

No embeds

Report content

Flagged as inappropriate Flag as inappropriate
Flag as inappropriate

Select your reason for flagging this presentation as inappropriate.

    No notes for slide


  • 1. References #6
    • Leon-Garcia & Widjaja: Communication Networks, McGraw Hill, 2004
    • “ Computer Networks, 3rd Edition, A.S. Tanenbaum. Prentice Hall, 1996
    • TCP Packet Control for Wireless Networks, Wan Gang Zeng and Ljiljana Trajković, Communication Networks Laboratory Simon Fraser University
    • Hari Balakrishnan, Venkata N. Padmanabhan, Srinivasan Seshan and Randy H. Katz, A Comparison of Mechanisms for Improving TCP Performance over Wireless Links, ACM SIGCOMM ’96
    • “ END-TO-END ARGUMENTS IN SYSTEM DESIGN,” J.H. Saltzer, D.P. Reed and D.D. Clark M.I.T. Laboratory for Computer Science, 1981
    • J. Padhye, V. Firoiu, D. Towsley, and J. Kurose, “Modeling TCP Reno performance: a simple model and its empirical validation,” IEEE/ACM Trans. Networking, vol. 8, pp. 133-145, Apr. 2000.
    • Modeling TCP Long File Transfer Latency over Long Delay Wireless Multilink PPP, Said Zaghloul, Victor Frost, Abdul Jabbar Mohammad; IEEE Communications Letters, Vol. 9, No. 11; November 2005, pp. 988-990.
    • Professors Luiz DaSilva and Scott Midkiff:Mobile Networks: TCP in Wireless Networks www.intel.com/education/highered/Wireless/lectures/lecture_11_tcp.ppt
    • B. Nath, www.cs.rutgers.edu/~rmartin/teaching/fall04/cs552/lectures/wireless.pdf
    • Explicit Loss Notification to Improve TCP Performance over Wireless Channels , Gergő Buchholcz, Thomas Ziegler, Tien Van Do www.cost285.itu.edu.tr/tempodoc/TD_285_04_20_Buchholcz.ppt
  • 2. References #6
    • Abdelmoumen, R., M. Malli, and C. Barakat. Analysis of TCP latency over wireless links supporting FEC/ARQ-SR for error recovery . in IEEE International Conference on Communications . 2004.
    • Andrews, M., Instability of the proportional fair scheduling algorithm for HDR . 2002. p. 14.
    • Balakrishnan, H., et al. A comparison of mechanisms for improving TCP performance over wireless links . in ACM Sigcomm August 1996 . 1996. Stanford, CA.
    • Barakat, C. and E. Altman, Bandwidth Tradeoff between TCP and Link-Level FEC. Computer Networks 2002. 39 (2): p. 133-150.
    • Bonald, T., Flow-level performance analysis of some opportunistic scheduling algorithms. European transactions on telecommunications 2005. 16 (1): p. 65-75.
    • Bonald, T. and A. Proutiere, Wireless downlink data channels: user performance and cell dimensioning in Proceedings of the 9th annual international conference on Mobile computing and networking . 2003, ACM Press: San Diego, CA, USA p. 339-352.
    • Bonald, T. and A. Proutiere, QoS in multi-service wireless networks
    • A state of the art , in Design and Engineering of the Next Generation Internet, towards convergent multi-service networks. 2004, Eurongi - Network of Excellence.
    • Borst, S. User-level performance of channel-aware scheduling algorithms in wireless data networks . in Proceedings of IEEE INFOCOM '03 . 2003. San Francisco, CA
  • 3. References #6
    • Chakravorty, R., et al. Performance optimizations for wireless wide-area networks: comparative study and experimental evaluation . in Proceedings of the 10th annual international conference on Mobile computing and networking . 2004. Philadelphia, PA: ACM Press New York, NY, USA
    • Chatterjee, M., G.D. Mandyam, and S.K. Das. Fast ARQ in high speed downlink packet access for WCDMA systems . in Proceedings in European Wireless Conference . 2002. Florence, Italy.
    • Chockalingam, A. and M. Zorzi. Wireless TCP performance with link layer FEC/ARQ . in 1999 IEEE International Conference on Communications . 1999. Vancouver.
    • Fattah, H. and C. Leung, An overview of scheduling algorithms in wireless multimedia networks. Wireless Communications, IEEE, 2002. 9 (5): p. 76-83.
    • Gyasi-Agyei, A. and S.-L. Kim, Cross-layer multiservice opportunistic scheduling for wireless networks. IEEE Communications Magazine, 2006. 44 (6): p. 50-57.
    • Leung, K.K., et al. Methods to improve TCP throughput in wireless networks with high delay variability . in Vehicular Technology Conference . 2004.
    • Tian, Y., K. Xu, and N. Ansari, TCP in wireless environments: problems and solutions. IEEE Radio Communications, 2005: p. S27-S32.
    • Vacirca, F., A. De Vebductis, and A. Baiocchi, Optimal design of hybrid FEC/ARQ schemes for TCP over wireless links with Rayleigh fading. Mobile Computing, IEEE Transactions on, 2006. 5 (4): p. 289-302.
    • Yan, W., M. Zukerman, and R.J. Harris, PTT packet delay analysis for GPRS/GSM links. Communications Letters, IEEE, 2006. 10 (6): p. 456-458.
    • Zhang, H., Service Disciplines For Guaranteed Performance Service in Packet-Switching Networks. Proceedings of the IEEE, 1995. 83 (10).
    • Zhu, J. and S. Roy, Modeling TCP over selective repeat ARQ in wireless networks with non-negligible propagation delay. IEEE, 2003: p. 1843-1847.
  • 4. References #7
    • W. Stallings, Data and Computer Communications, Pearson, 2006
    • W. Stallings, Wireless Communications & Networks, Pearson 2005
  • 5. References #9
    • Computer Networking: A Top Down Approach Featuring the Internet , 2nd edition. Jim Kurose, Keith Ross Addison-Wesley, July 2002.
    • S. Kehav, “An Engineering Approach to Computer Networking, Addison-Wesley Professional Computing Series, 1997
    • Alexandre Proutiere, Ed, “QoS in multi-service wireless networks
    • A state of the art”, eurongi.enst.fr/archive/127/DWPJRA241.pdf
    • T. Bonald, “Flow-level performace analysis of some opportunistic scheduling algorithms, Euro. Trans. Telecomms. 2005; 16:65–75
    • Stefan Parkvall, Eva Englund, Magnus Lundevall, and Johan Torsner, “Evolving 3G Mobile Systems: Broadband and Broadcast Services in WCDMA”, IEEE Communications Magazine, February 2006
    • T. S. Eugene Ng, I. Stoica, H. Zhang, Packet fair queueing algorithms for wireless networks with location-dependent errors, Proc. of IEEE Infocom, 1998.
    • Schwartz, M., Mobile wireless communications . 2005, Cambridge; New York: Cambridge University Press. xi, 457 p.
  • 6. References #10
    • Bartoš, R., C.K. Godsay, and S. Fulton. Experimental Evaluation of DOCSIS 1.1 Upstream Performance . in Parallel and Distributed Computing and Networks . 2004. Innsbruck, Austria.
    • Fellows, D. and D. Jones, DOCSIS cable modem technology. Communications Magazine, IEEE, 2001. 39 (3): p. 202-209.
    • Hawa, M. and D.W. Petr. Quality of service scheduling in cable and broadband wireless access systems . in Tenth IEEE International Workshop on Quality of Service, 2002 . 2002.
    • Lin, Y.-D., W.-M. Yin, and C.-Y. Huang, An Investigation into HFC MAC Protocols: Mechanisms, Implementation, and Research Issues. IEEE Communications Surveys, 2000.
    • Martin, J. The Impact of the DOCSIS 1.1/2.0 MAC Protocol on TCP . in Second IEEE Consumer Communications and Networking Conference . 2005. Las Vegas, NV.
    • Martin, J. and N. Shrivastav. Modeling the DOCSIS 1.1/2.0 MAC Protocol . in Proceedings of the 2003 International Conference on Computer Communications and Networks . 2003. Dallas TX.
    • Shah, N., et al. A tutorial on DOCSIS: protocol and performance models . in Proceedings of the International Working Conference on Performance Modeling and Evaluation of Heterogeneous Networks . 2005. Ikley, UK.
    • Zhenglin, L. and X. Chongyang, An Analytical Model for the Performance of the DOCSIS CATV Network The Computer Journal 2002. 45 (3): p. 278-284.
    • http://www.cablemodem.com/primer/
    • Data-Over-Cable Service Interface Specifications eDOCSIS™ Specification CM-SP-eDOCSIS-I08-060407
  • 7. References #10
    • “ Computer Networks, 3rd Edition, A.S. Tanenbaum. Prentice Hall, 1996
    • DOCSIS Overview, Ajay Gummalla, www.ieee802.org/3/efm/public/jul01/presentations/gummalla_1_0701.pdf
    • www.cablemodem.com/downloads/specs/SP-CMCI-I09-030730.pdf
    • http://www.nextgendc.com/index.htm
    • http://www.jlsnet.co.uk/index.php?tab=3&pge=projects_docsis_chap3c
  • 8. References #11
    • Eklund, C., et al., IEEE standard 802.16: a technical overview of the WirelessMAN air interface for broadband wireless access. Communications Magazine, IEEE, 2002. 40 (6): p. 98-107.
    • Ghosh, A., et al., Broadband wireless access with WiMax/802.16: current performance benchmarks and future potential. Communications Magazine, IEEE, 2005. 43 (2): p. 129-136.
    • Nair, G., et al., IEEE 802.16 Medium Access Control and Service Provisioning. Intel Technology Journal, 2004. 08 (03): p. 213-228.
    • Ramachandran, S., C.W. Bostian, and S.F. Midkiff, Performance evaluation of IEEE 802.16 for broadband wireless access.
    • R. Marks, “The 802.16 WirelessMAN WirelessMAN MAC: MAC:
    • It’s Done, but What Is It?” www.ieee802.org/16/docs/01/80216-01_58r1.pdf
    • W. Stallings Wireless Communications and Networks, Prentice Hall, Second Edition, 2005
  • 9. References #12
    • Attar, R., et al., Evolution of cdma2000 cellular networks: multicarrier EV-DO. Communications Magazine, IEEE, 2006. 44 (3): p. 46-53.
    • Bhushan, N., et al., CDMA2000 1xEV-DO revision a: a physical layer and MAC layer overview. Communications Magazine, IEEE, 2006. 44 (2): p. 37-49.
    • Ekstrom, H., et al., Technical solutions for the 3G long-term evolution. Communications Magazine, IEEE, 2006. 44 (3): p. 38-45.
    • Guangyi, L., et al., Evolution map from TD-SCDMA to FuTURE B3G TDD. Communications Magazine, IEEE, 2006. 44 (3): p. 54-61.
    • Parkvall, S., et al., Evolving 3G mobile systems: broadband and broadcast services in WCDMA. Communications Magazine, IEEE, 2006. 44 (2): p. 30-36.
    • Sanjiv Nanda, K.B., Sarath Kumar,, Adaptation Techniques in Wireless Packet Data Services. IEEE Communications Magazine, 2000(1): p. 54-64.
    • Sarikaya, B., Packet mode in wireless networks: overview of transition to third generation. Communications Magazine, IEEE, 2000. 38 (9): p. 164-172.
    • Yavuz, M., et al., VoIP over cdma2000 1xEV-DO revision A. Communications Magazine, IEEE, 2006. 44 (2): p. 50-57.
  • 10. References #12
    • Leon-Garcia & Widjaja: Communication Networks, McGraw Hill, 2004
    • www.ccs.neu.edu/home/rraj/G250Projects/NachiketMehta.ppt
    • M. D. Yacoub, Wireless Technology, Protocols, Standards, and Techniques, CRC Press, 2002
    • Geert Heijenk, wwwhome.cs.utwente.nl/~heijenk/mwn/slides/Lecture-5%206%20slides%20per%20page.pdf
    • Juan J. Alcaraz, Fernando Cerdan, and Joan García-Haro, “Optimizing TCP and RLC Interaction in the UMTS Radio Access Network”, IEEE Network • March/April 2006
    • http://www.umtsworld.com/technology/RCC_states.htm
    • P. Chong, www.comlab.hut.fi/opetus/238/lecture9_PacketAccess.pdf
    • Agilent, Applications note: Concepts of High Speed Downlink Packet Access: Bringing Increased Throughput and Efficiency to W-CDMA
    • Alexander Wang , WCDMA Evolved: High Speed Downlink Packet Access Mechanisms and Capabilities, www.pcca.org/standards/architecture/hsdpa.pdf
    • Mohamad Assaad, Zeghlache Djamal TCP Performance Over Umts-Hsdpa Systems, CRC Press, 2007
  • 11. References #13
    • TIA/EIA/IS-856, cdma2000 High Rate Packet Data Air Interface Specification, Telecommunications Industry Association, January 2002.
    • Samuel C. Yang, “3G CDMA 2000: Wireless System Engineering,” Artech House Inc.
    • Kamran Etemad, “CDMA 2000 Evolution,” John Wiley and Sons Inc., 2004
    • Mooi Choo Chuah and QinQing Zhnag, “Design and Performance of 3G Wireless Networks and Wireless LANs,” Springer Inc., 2006.
    • Bender, P., et al., “CDMA/HDR: A Bandwidth Efficient High Speed Wireless Data Service for Nomadic Users,” IEEE Communications, Vol. 38, No. 7, July 2000, pp. 70-77.
  • 12. References #14
    • Assi, C.M., et al., Dynamic bandwidth allocation for quality-of-service over Ethernet PONs. Selected Areas in Communications, IEEE Journal on, 2003. 21 (9): p. 1467-1477.
    • Hajduczenia, M., EPONs - revolution in access networks .
    • Haran, O., EPON vs. GPON: a practical comparison . 2005.
    • Keiser, G., FTTX concepts and applications . Wiley series in telecommunications and signal processing. 2006, Hoboken, N.J.: John Wiley & Sons : IEEE. xvii, 293 p.
    • Kramer, G., Ethernet passive optical networks . Communications engineering series. 2005, New York: McGraw-Hill Professional. xvii, 307 p.
    • Kramer, G. and G. Pesavento, Ethernet passive optical network (EPON): building a next-generation optical access network. Communications Magazine, IEEE, 2002. 40 (2): p. 66-73.
    • Kunigonis, M., FTTH explained: delivering efficient customer bandwidth and enhanced services . 2005.
    • McGarry, M.P., M. Maier, and M. Reisslein, Ethernet PONs: a survey of dynamic bandwidth allocation (DBA) algorithms. Communications Magazine, IEEE, 2004. 42 (8): p. S8-15.
    • Pesavento, G., Ethernet passive optical network (EPON) architecture for broadband access Optical Networks Magazine 2003.
    • Upadhyay, P., Passive optical networks . 2005.
    • Zahr, S.A. and M. Gagnaire, An analytical model of the IEEE 802.3ah MAC protocol for EPON-based access systems . 2006. p. 1-5.
    • Zheng, J. and H.T. Mouftah, Media access control for Ethernet passive optical networks: an overview. Communications Magazine, IEEE, 2005. 43 (2): p. 145-150.
  • 13. References#15
    • Begain, K., et al., Modeling of a PLC access network , in First Polish-German Teletraffic Symposium . 2000: Dresden, Germany.
    • Bianchi, G., I. Tinnirello, and G. Conigliaro, Design and performance evaluation of an hybrid reservation-polling MAC protocol for power-line communications. International Journal of Communication Systems, 2003. 16 (5): p. 427-445.
    • Klaus Dostert, “Powerline Communications,” Prentice Hall, 2001
    • Hrasnica H, Haidine A, Lehnert R. Reservation MAC protocols for powerline communications. Proceedings of ISPLC 2001–5th International Symposium on Powerline Communications and its Applications, April 3–6, 2001, Sweden, 2001.
    • Hrasnica, H. and A. Haidine. Modeling MAC Layer for Powerline Communications Networks, . in Internet, Performance and Control of Network Systems, part of SPIE's symposium on Information Technologies . 2000. Boston, MA, USA.
    • Hrasnica, H., A. Haidine, and R. Lehnert. Performance comparison of reservation MAC protocols for broadband powerline communications networks . in Proceedings of ISPLC 2001-5th International Symposium on Powerline Communications and its Applications . 2001. Malm.o, Sweden.
    • Hrasnica, H., A. Haidine, and R. Lehnert, Broadband powerline communications networks : network design . 2004, Chichester, England ; Hoboken, NJ: Wiley. xiii, 275 p.
    • Hrasnica, H. and R. Lehnert. Investigation of MAC protocols for broadband PLC networks under realistic traffic conditions . in 7th ISPLC 2003 . 2003. Kyoto, Japan.
    • Lin, Y.-J., et al. Periodic contention-free multiple access for power line communication networks . in 19th Internation Conference on Advanced Information Networking and Applications, 2005 . 2005.
    • Weilin Liu, Hanspeter Widmer, and Philippe Raffin, “Broadband PLC Access Systems and Field Deployment in European Power Line Networks, IEEE Communications Magazine, May 2003.
    • Majumder, A. and J. Caffery, Jr., Power line communications. Potentials, IEEE, 2004. 23 (4): p. 4-8.
    • Mollenkopf, J., Presentation to Cincinnati IEEE Meeting . 2004. p. 1-25.
    • Pavlidou, N., et al., Power line communications: state of the art and future trends. Communications Magazine, IEEE, 2003. 41(4): p. 34-40.
    • Sundaresan, S., et al., Distributed MAC protocols and priority oriented scheduling for a PLC access network. International Journal of Communication Systems, 2003. 16 (5): p. 475-495.
    • Sutterlin, P. and W. Downey. A power line communication tutorial - challenges and technologies . in 1998 International Symposium on Power-line Communications and its Applications . 1998. Tokyo, Japan.
    • Weilin, L., H. Widmer, and P. Raffin, Broadband PLC access systems and field deployment in European power line networks. Communications Magazine, IEEE, 2003. 41 (5): p. 114-118.
  • 14. References #16
    • S. Haykin, “ Cognitive Radio: Brain-Empowered Wireless Communications ”, IEEE Journal on Selected Areas in Communications , Feb. 2005.
    • William Krenik and Anuj Batra, “ Cognitive Radio Techniques from Wide Area Networks ”, Proceedings of the 42 nd Design Automation Conference , pages 409-412, 2005.
    • Upcoming May 2007 Issue of the IEEE Communications Magazine ( Feature Topic on Cognitive Radios for Dynamic Spectrum Access )
    • KUAR Wiki: https:// agileradio.ittc.ku.edu /
    • DARPA XG Website: http://www.darpa.mil/ATO/programs/XG/index.htm
    • T. R. Newman et al ., “Cognitive Engine Implementation for Wireless Multicarrier Transceivers”, To appear in the Wiley Wireless Communications and Mobile Computing Journal, 2007
    • R. Rajbanshi et al ., “An Efficient Implementation of NC-OFDM Transceivers for Cognitive Radios”, Proc. CrownCom, June. 2006.
  • 15. References
  • 16. References
  • 17. References